An elastomer with ultrahigh strain-induced crystallization

Author(s)

Hartquist, Chase M; Lin, Shaoting; Zhang, James H; Wang, Shu; Rubinstein, Michael; Zhao, Xuanhe; ... Show more Show less

Abstract

Strain-induced crystallization (SIC) prevalently strengthens, toughens, and enables an elastocaloric effect in elastomers. However, the crystallinity induced by mechanical stretching in common elastomers (e.g., natural rubber) is typically below 20%, and the stretchability plateaus due to trapped entanglements. We report a class of elastomers formed by end-linking and then deswelling star polymers with low defects and no trapped entanglements, which achieve strain-induced crystallinity of up to 50%. The deswollen end-linked star elastomer (DELSE) reaches an ultrahigh stretchability of 12.4 to 33.3, scaling beyond the saturated limit of common elastomers. The DELSE also exhibits a high fracture energy of 4.2 to 4.5 kJ m <jats:sup>−2</jats:sup> while maintaining low hysteresis. The heightened SIC and stretchability synergistically promote a high elastocaloric effect with an adiabatic temperature change of 9.3°C.

Date issued

2023-12-15

URI

https://hdl.handle.net/1721.1/154909

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Science Advances

Publisher

American Association for the Advancement of Science (AAAS)

Citation

Hartquist, Chase M, Lin, Shaoting, Zhang, James H, Wang, Shu, Rubinstein, Michael et al. 2023. "An elastomer with ultrahigh strain-induced crystallization." Science Advances, 9 (50).

Version: Final published version